Following weeks of rumours that gravitational waves have finally been discovered, scientists are set to make an announcement Thursday morning.
Scientists with the U.S.-based Laser Interferometer Gravitational-Wave Observatory, which includes some Canadians, will provide an update on the search for gravitational waves at 10:30 a.m. Thursday, LIGO announced earlier this week. The event will be webcast live from the National Press Club in Washington, D.C.
Gravitational waves are ripples in space-time that Albert Einstein's theory of general relatively predicted would be produced by massive phenomena such as neutron stars or black holes colliding.
From left to right, University of Toronto's LIGO team members Harald Pfeiffer, Heather Fong and Prayush Kumar. ( Diana Tyszko/University of Toronto)
Such events don't normally give off light and can't be detected using normal telescopes, so observing their gravitational waves would allow scientists to study things that have never been seen before. It would also tell physicists whether Einstein's general theory of relativity is really correct.
U.S.-based Laser Interferometer Gravitational-Wave Observatory (LIGO) has two detectors - one in Hanford, Washington, and the other in Livingston, Louisiana (above). (LIGO)
The theory turned 100 years old this year. And despite decades of searching, gravitational waves have not yet been officially detected.
But rumours have been heating up that LIGO has finally seen something. Twitter posts about that from Arizona State University theoretical physicist Lawrence Krauss, who is not part of the LIGO collaboration, caused a huge buzz on the internet in January. Since then, many people have been waiting for an official announcement from LIGO.
The Canadian Institute for Theoretical Physics at the University of Toronto helped make the software used to analyze the data and look for gravity waves.
Gravitational waves are detected by LIGO through their effect on test masses like those one. (LIGO)
The experiment aims to detect gravitational waves by measuring their effect on test masses suspended in two L-shaped detectors about 3,200 kilometres apart. Passing gravitational waves are expected to decrease the distance between the test masses in one arm of the L, while increasing it in the other. A real gravitational wave should be detected by both detectors.
2016 could bring two discoveries that would color fundamental physics in 21st century: New particles at LHC, and Gravitational waves at LIGO
— @LKrauss1
My earlier rumor about LIGO has been confirmed by independent sources. Stay tuned! Gravitational waves may have been discovered!! Exciting.
— @LKrauss1
Re LIGO. Caveat earlier mentioned: they have engineering runs with blind signals inserted that mimic discoveries. Am told this isn't one.
— @LKrauss1
To reporters: A rumor is a RUMOR. LIGO will make any announcement if there is one. I am not part of LIGO nor do I represent anyone there.
— @LKrauss1
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